BELT RETRACTOR DEVICE FOR A MOTOR VEHICLE

Abstract

A belt retractor device for a vehicle comprises a first device component (12), a second device component (14) and a detent mechanism (16) including a first detent element (26) and a second detent element (28). The first detent element (26) has at least two stops (58) which are offset from each other in the radial direction and in the axial direction relative to a mounting axis (20). The second detent element (28) includes a detent edge (40) configured to engage in one of the stops (58) of the first detent element (12) and to prevent the first device component (12) and the second device component (14) from moving relative to each other against the mounting direction of the mounting axis (20).

Claims

1. A belt retractor device for a vehicle, comprising a first device component (12), a second device component (14) and a detent mechanism (16) including a first detent element (26) and a second detent element (28), wherein the first device component (12) and the second device component (14) are movable toward each other along a mounting axis (20) in a mounting direction, wherein the first detent element (26) includes at least two stops (58) which are offset from each other relative to the mounting axis (20) in the radial direction and in the axial direction, and wherein the second detent element (28) includes a detent edge (40) configured to engage in one of the stops (58) of the first detent element (26) and to prevent the first device component (12) and the second device component (14) from moving relative to each other against the mounting direction of the mounting axis (20).

2. The belt retractor device according to claim 1, wherein the axial stops (58) are stepped.

3. The belt retractor device according to claim 1, wherein the first detent element (26) is provided on the first device component (12) or on the second device component (14), and in that the second detent element (28) is provided on the respective other of the first device component (12) or the second device component (14).

4. The belt retractor device according to claim 1, wherein the first device component (12) or the second device component (14) is a gear unit (22) of the belt retractor device (10), in particular wherein the second device component (14) or the first device component (12) is an electronic control unit (24) of the belt retractor device (10).

5. The belt retractor device according to claim 1, wherein the belt retractor device (10) includes a locking device (18) configured to prevent the first and second device components (12, 14) from rotating relative to each other, in particular wherein the locking device (18) includes a fixing pin (32) and a holder (30) for the fixing pin (32).

6. The belt retractor device according to claim 1, wherein the second detent element (28) includes a center part (36) and an elastic tongue (38) which is tightly connected to the center part (36) at one of its ends, wherein, at the other end of the tongue (38), the detent edge (40) is formed, in particular wherein the tongue (38) extends both in the radial direction and in the axial direction.

7. The belt retractor device according to claim 6, wherein the tongue (38) being biased radially outwardly.

8. The belt retractor device according to claim 1, wherein the first detent element (26) is rigid and includes a base (42) and at least one outer portion (44) which extends substantially in the axial direction from the base (42), in particular wherein the first detent element (26) circumferentially encloses the second detent element (28).

9. The belt retractor device according to claim 8, wherein the outer portion (44) includes a radially inwardly projecting extension (50) on which at least two stops (58) are formed, particularly on the side facing the base (42).

10. The belt retractor device according to claim 9, wherein a guide element (60) is formed at the extension (50), in particular on the side remote from the base (42).

11. The belt retractor device according to claim 8, wherein in the base (42) a hole (34) is provided which is at least partially aligned in the axial direction with the extension (50), in particular with at least one of the stops (58), particularly wherein the hole (34) is disposed radially between the outer portion (44) and the second detent element (28).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0041] Further features and advantages of the invention will be evident from the following description of two embodiments of a belt retractor device according to the invention as well as from the attached drawings which will be referred to in the following, and wherein:

[0042] FIG. 1 shows a lateral view of a belt retractor device according to the invention in a first embodiment,

[0043] FIG. 2 shows a front view of the belt retractor device from FIG. 1,

[0044] FIG. 3 shows a longitudinal section across the belt retractor device of FIG. 2 along the section line III-III;

[0045] FIGS. 4 and 6 show the detent mechanism of FIG. 1 in a longitudinal section across the detail A of FIG. 3 in different positions of the second detent element,

[0046] FIG. 5 shows a longitudinal section across the detail B of FIG. 4,

[0047] FIG. 7 shows a longitudinal section across the detail A of FIG. 3 with an unlocking device, and

[0048] FIG. 8 shows a perspective longitudinal section across a belt retractor device according to the invention in a second embodiment.

DESCRIPTION

[0049] In FIGS. 1 and 2, a first embodiment of a belt retractor device 10 for a seatbelt of a vehicle is shown. FIG. 1 illustrates a lateral view of the belt retractor device 10 and FIG. 2 illustrates a front view of the belt retractor device 10.

[0050] The belt retractor device 10 comprises a first device component 12, a second device component 14, a detent mechanism 16 and a locking device 18.

[0051] The first device component 12 and the second device component 14 are movable relative to each other along a mounting axis 20 in a mounting direction shown by an arrow.

[0052] The movability is shown in FIG. 1 by the two positions of the first device component 12. In the first position, shown by a continuous line, the first device component 12 and the second device component 14 are in the mounted state, and in the second position, shown by a broken line, the device components 12, 14 are in the disassembled state.

[0053] In the embodiment of the belt retractor device 10 shown in FIG. 1, the first device component 12 is a gear unit 22 and the second device component 14 is an electronic control unit 24.

[0054] The detent mechanism 16 comprises a first detent element 26 and a second detent element 28.

[0055] In FIG. 1, the first detent element 26 is arranged on the first device component 12 and the second detent element 28 is arranged on the second device component 14.

[0056] The detent mechanism 16 is configured to prevent the first device component 12 and the second device component 14 from moving relative to each other against the mounting direction along the mounting axis 20. The functioning shall be illustrated in detail later by way of FIG. 3.

[0057] Accordingly, the first device component 12 can be moved from the second position to the first position, viz. in the mounting direction, but not against the mounting direction.

[0058] The locking device 18 includes a holder 30 and a fixing pin 32. The holder 30 is provided at the second device component 14 and the fixing pin 32 is provided at the first device component 12.

[0059] The fixing pin 32 is configured to positively engage, in the mounted state of the belt retractor device 10, in the holder 30 and to prevent the first device component 12 from rotating relative to the second device component 14.

[0060] For example, the holder 30 is a blind hole and the fixing pin 32 is a rod which is formed complementarily thereto and fits positively in the blind hole.

[0061] FIG. 2 illustrates that a hole 34 is provided in the first detent element 26.

[0062] The detent mechanism 16 is shown in FIG. 3. FIG. 3 illustrates a longitudinal section across the belt retractor device along the line III-III of FIG. 2.

[0063] The second detent element 28 has a center part 36 and an elastic tongue 38. The center part 36 extends primarily in the axial direction and is connected to the second device component 14 at one axial end. At the other axial end, the center part 36 is adjacent to the first detent element 26.

[0064] Generally, it is also imaginable that the entire second detent element 28 is elastic.

[0065] The second detent element 28 is permanently connected to the second device component 14, for example, or is formed integrally with the second device component 14.

[0066] The elastic tongue 38 extends from an axial end of the center part 36 in the mounting direction, as is visible in FIG. 4.

[0067] The elastic tongue 38 includes a detent edge 40 substantially disposed in the radial direction which is disposed at the end of the elastic tongue 38 that is not connected to the center part 36.

[0068] The elastic tongue 38 may be tensioned radially inwardly and extends both in the radial direction and in the axial direction.

[0069] Also, it is imaginable that the elastic tongue 38 is formed integrally with the center part 36.

[0070] The first detent element 26 is rigid and includes a base 42 and two outer portions 44.

[0071] The base 42 extends substantially in the radial direction and has an axial connecting portion 46. The base 42, viz. the first detent element 26, is fastened to the first device component 12 by means of the connecting portion 46.

[0072] The outer portions 44 extend from the base 42 at its periphery axially in the mounting direction. Hence, in the longitudinal section of FIG. 3, the first detent element 26 is substantially U-shaped.

[0073] More precisely, the outer portions 44 extend from the base 42 in the mounting direction toward the second device component 14. Thus, the outer portions 44 are arranged between the base 42 and the second device component 14.

[0074] The base 42 also includes the hole 34 of the first detent element 26. FIG. 4 illustrates that the hole 34 is disposed between the outer portion 44 and the center part 36 of the second detent element 28.

[0075] The outer portions 44 do not contact the second device component 14, however, so that they have a free end 48.

[0076] A radially inwardly projecting extension 50 is provided at the free end 48 of an outer portion 44 of the first detent element 26.

[0077] The radially inwardly projecting extension 50 includes a guide surface 52 and a stop side 54 which are arranged axially opposed to each other and are separated from each other by a guide edge 56.

[0078] The guide surface 52 faces the first device component 12 and the stop side 54 faces the base 42.

[0079] The guide surface 52 and the guide edge 56 form a guide element 60 of the first detent element 26. The guide element 60 is formed on the side of the radially inwardly projecting extension 50 remote from the base 42 and, during mounting, acts upon the elastic tongue 38 of the second detent element 28 in the radial direction.

[0080] FIG. 5 illustrates that the stop side 54 forms a stop for the elastic tongue 38 of the second detent element 28. For this purpose, on the stop side 54 plural stops 58 are provided which are offset from each other in the radial direction and in the axial direction with respect to the mounting axis 20, and thus are stepped.

[0081] The stops 58 extend substantially in the radial direction based on the mounting axis 20.

[0082] In the mounting positions of the belt retractor device 10 shown in FIGS. 4 and 6, the elastic tongue 38 of the second detent element 28 engages, against the mounting direction, in one of the stops 58 of the radially inwardly projecting extension 50 of the first detent element 26 by means of the detent edge 40.

[0083] Accordingly, the first detent element 26 cannot be moved against the mounting direction relative to the second detent element 28 so that also a movement of the first device component 12 and the second device component 14 relative to each other against the mounting direction is prevented by the detent mechanism 16.

[0084] A force acting on the first device component 12 and, resp., the first detent element 26 in the mounting direction, i.e., in FIG. 5 a force to the left, results in the stops 58 moving relative to the detent edge 40. Because of the tension of the elastic tongue 38, the detent edge 40 of the second detent element 28 is moved into a stop 58 which is located radially further outside. As the stops 58 located radially further outside also have a smaller distance from the base 42 of the first detent element 26, the selection of a stop 58 helps adjust the positioning of the first detent element 26 relative to the second detent element 28.

[0085] This situation is illustrated in FIG. 6. The elastic tongue 38 is arranged further outside and the detent edge 40 engages in a stop 58 located radially further outside.

[0086] Thus, in FIG. 6 the play between the first device component 12 and the second device component 14 is smaller than in FIG. 4.

[0087] Accordingly, the play between the first device component 12 and the second device component 14 can be adjusted by the detent mechanism 16.

[0088] The bias of the elastic tongue 38 required to this end is produced during mounting. During mounting, the guide element 60 acts upon the side 62 of the elastic tongue 38 remote from the center part 36 and forces said side inwardly in the radial direction. Thus, the elastic tongue 38 of the second detent element 28 is forced inwardly, and the first detent element 26 can be slid onto the second detent element 28 in the mounting direction.

[0089] As soon as the guide edge 56 is no longer in contact with the side 62, the elastic tongue 38 is forced radially outwardly by its bias and the detent edge 40 engages in one of the stops 58.

[0090] Consequently, the elastic tongue 38 only contacts the guide element 60 or one of the stops 58, but never both of them at the same time.

[0091] FIG. 7 shows the detail A of FIG. 3 in a longitudinal section and illustrates the release of the detent connection between the first detent element 26 and the second detent element 28.

[0092] To this end, an unlocking device 64 is used that is configured to be inserted into the hole 34 of the first detent element 26.

[0093] In the embodiment shown in FIG. 7, the unlocking device 64 is rod-shaped and the hole 34 is disposed so that the radially outer end of the hole 34 is at least partially aligned with the radially inwardly projecting extension 50.

[0094] In particular, the radially outer end of the hole 34 is aligned with the radially outermost stop 58 and, thus, also with the side of the outer portion 44 facing the elastic tongue 38.

[0095] The radially inner end of the hole 34 is disposed, when viewed in the radial direction, closer to the mounting axis 20 than the guide edge 56 of the guide element 60.

[0096] The insertion of the unlocking device 64 into the hole 34 causes the elastic tongue to be moved radially inwardly. As soon as the side 62 of the elastic tongue 38 is located radially further inside than the guide element 60, the first detent element 26 and, thus, the first device component 12 can be moved against the mounting direction. Thus, the first device component 12 can be detached from the second device component 14.

[0097] This means in the shown embodiment that the gear unit 22 can be detached from the electronic control unit 24 using the unlocking device 64.

[0098] The embodiment of the belt retractor device 10 illustrated in FIGS. 3 to 7 includes a total of five stops 58, as shown in FIG. 5. Generally, only two stops 58 are required to be able to adjust the play between the first device component 12 and the second device component 14.

[0099] However, the play between the first device component 12 and the second device component 14 can be adjusted more precisely if there is a larger number of stops 58.

[0100] Moreover, the relative rotation between the first device component 12 and the second device component 14 is prevented by the fixing pin 32 and the holder 30.

[0101] FIG. 8 illustrates a second embodiment of the belt retractor device 10 which substantially corresponds to the first embodiment. Therefore, hereinafter only the differences shall be discussed. Equal and equally functioning components show the same reference numerals.

[0102] Unlike the first embodiment, in FIG. 8 an alternative arrangement of the fixing pin 32 and the holder 30 is shown.

[0103] In this arrangement, the fixing pin 32 is offset from the opening 34 perpendicularly to the mounting axis 20 on the first device component 12. The fixing pin 32 is adjacent to the at least one outer portion 44.

[0104] In other words, the fixing pin 32 and the holder 30 may be arranged at a similar height to the detent mechanism 16.

[0105] Moreover, in FIG. 8 the first device component 12 is not shown for reasons of clarity.

[0106] Generally, any coupling of the first device component 12 and the second device component 14 to an additional position as the detent mechanism 16 is imaginable.

[0107] For example, both in the first device component 12 and in the second device component 14 a concentric hole may be provided into which a fixing pin or a screw is introduced.

[0108] It is further conceivable to make use of the opening 34 for fixing the first device component 12 and the second device component 14 to each other using a screw.